ITU Types / Designations of Radio Emissions

- the ITU, International Telecommunications Union uses a set of codes to define the various sorts of radio trammissions and modulation types that can be used.

Modulation Types Tutorial Includes

In order to easily describe the different types of radio emissions or transmissions, the ITU, International Telecommunications Union has defined a series of codes that easily define a radio transmission or modulation format.

These ITU radio emission designations are widely used in the definition of the types of radio transmission that are used within different portions of the spectrum and in other areas.

These ITU radio emission designations define the signal - the type of modulation, bandwidth and the type of information being carried. As such the type of radio emission, or transmission is defined and not the transmitter or the system that is used.

The ITU designation system was agreed at the 1979 World Administrative Radio Conference (WARC 79), and superseded a previous system which has now completely fallen out of use.


Radio emission types designation format

The ITU designations for the different types of radio emissions follows a standard format. This enables anyone using the system to quickly identify the parameters of the particular transmission. Although not all elements of the system may be used every time, it has been developed so that there is no ambiguity whatever part of the system for describing the types of radio emission is used.

The system has the following format:


BBBB   123   45


Where:
    BBBB are characters that define the bandwidth
    Character "1" is a letter indicating the type of modulation
    Character "2" is a digit that indicates the type of modulating signal
    Character "3" is a letter indicating the type of information being transmitted
    Character "4" is an optional letter indicating the practical details of the transmitted information
    Character "5" is an optional letter indicating details about any multiplexing, if used.

Tables for the different characters 1 to 5 are given below.


Bandwidth designator

The bandwidth designator has the format of three digits that express the significant figures, and a letter used for the decimal point.

The letters used are:
      H: indicates hertz
      k: indicates kilohertz
      M: indicates Megahertz
      G: indicates Gigahertz

Examples may include 200H for a 200 Hz bandwidth transmission, 6K00 for a 6 kHz bandwidth, and 1M25 for a 1.25 MHz wide transmission, etc..


Character 1 - type of modulation

This character describes the format for the modulation itself. It provides information about the way in which the signal is superimposed onto the carrier.


Letter
indicator
Details
A Double sideband, DSB, including DSB full carrier, i.e. amplitude modulation
B Independent sideband, i.e. two sidebands present, each carrying different information
C Vestigial sideband
D Combination of AM and FM or PM, either simultaneously or in a pre-established sequence
F Frequency modulation, FM
G Phase modulation, PM
H Single sideband full carrier
J Single sideband suppressed carrier, SSBSC
K Pulse amplitude modulation, PAM
L Pulse width modulation, PWM
M Pulse position modulation, PPM
N Un-modulated carrier
P Series of pulses without modulation
Q Sequence of pulses, phase or frequency modulation within each pulse
R Single sideband with reduced or variable level carrier
V Combination of pulse modulation methods
W Combination of any of above
X cases not covered by the above definitions

It is worth noting that frequency modulation and phase modulation may also be referred to by the generic term: "angle modulation."


Character 2 - type of modulating signal

This character of the ITU designations for radio emissions details the characteristics of the modulating signal. It provides information including whether the modulation is analogue or digital and whether there is one channel of information or more being carried.


Letter
indicator
Details
0 No modulating signal
1 One channel containing digital information without the use of modulating sub-carriers (excludes time division multiplex)
2 One channel containing digital information with the use of a modulating sub-carrier (excludes time division multiplex)
3 One channel containing analogue information
7 More than one channel containing digital information
8 More than one channel containing analogue information
9 Combination of analogue and digital channels
X cases not covered by the above

Character 3 - type of transmitted information

This character in the ITU designation of radio emissions details the type of information being carried. It provides some insight into the use and the way in which the information may be decoded.


Letter
indicator
Details
A Telegraphy for aural reception - e.g. Morse code
B Telegraphy for automatic reception, i.e. machine decoded
C Facsimile
D Data transmission, telemetry or command
E Telephony, i.e. voice or music intended for human listening (including sound broadcasting)
F Video - television
W Any combination of above
X None of above

Character 4 - details of information

This character provides some insight into the format of the information - its coding and therefore the requirements for decoding he information once it has been demodulated.


Letter
indicator
Details
A Two condition code - elements vary in quantity and duration
B Two condition code - elements fixed in quantity and duration
C Two condition code - elements vary in quantity and duration - error correction included
D Four-condition code in which each condition represents a signal element (or one or more bits)
E Multi-condition code in which each condition represents a signal element (of one or more bits)
F Multi condition code - one character represented by one or more conditions
G Monophonic broadcast quality sound
H Stereophonic or quadraphonic broadcast quality sound
J Commercial, non-broadcast, quality sound (but excluding K & L below)
K Sound of commercial quality with the use of frequency inversion and/or band-splitting employed
L Sound of commercial quality with independent FM signals to control the level of the demodulated signal, e.g. pilot tones used to control demodulation process
M Monochrome images or video
N Full colour images or video
W Combination of the above
X Cases not covered by the above descriptions

Character 5 - details of multiplexing

Increasingly radio channels are used to carry more than one stream of information, or they may be required to share the channel with other users or streams of information. This character in the ITU designation of radio transmissions provides information about any multiplexing.


Letter
indicator
Details
C Code-division multiplex (including code expansion techniques such as direct sequence spread spectrum)
F Frequency-division multiplex
N None used
T Time-division multiplex
W Combination of frequency division and time division
X Other types of multiplexingNone of above

By Ian Poole


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